Theory of Gravity: General Theory of Gravity, Quantum Gravity Theory, and Hydrogen Origin Theory of the Universe

November 2015 was the centennial of Einstein's theory of general relativity, which is the current reigning theory on gravity. In September 14, 2015, the twin Laser Interferometer Gravitational-wave Observatory (LIGO) detectors "supposedly" detected the gravitational waves. The discovery was announced on February 11, 2016. Soon enough, the discovery of the gravitational waves was awarded the Special Breakthrough in Fundamental Physics on May 2016 (probably setting it up for a nomination for the Nobel Prize in Physics). What is wrong with the detection of the gravitational waves? Physicists had failed in unifying general relativity and quantum mechanics, and there is no solution around it. Why is this so? Because general relativity is wrong. In this book, it is shown that the understanding of inertia of Galileo, Descartes, and Newton passed down to Einstein was wrong. Likewise, Einstein's relativity was wrong. (Galileo did not established the idea of relativity.) And so, how can there be gravitational waves when the foundation of general relativity is wrong? This book presents the following coherent theories: theory of everything, quark theory (structure of quarks inside the proton and neutron), new model of an atom (structure of an atom), charge theory, mass theory (compare the theory of the Higgs mechanism), general theory of gravity (overthrow general relativity), theory of inertia (replace the existing understanding of inertia), quantum gravity theory, standard model (revised and with the inclusion of gravity), hydrogen origin theory of the universe (overthrow and replace the Big Bang theory). The following theories and ideas were overthrown: Big Bang theory, cosmic background radiation (as the "ember" of the Big Bang theory), expansion and accelerating expansion of the universe, the idea of the dominance of matter over antimatter, dark matter and dark energy (explained as "aspects" of gravity), inertia (old understanding), relativity, special relativity (principle of relativity, time dilation, etc.), general relativity (gravitational lensing, gravitational waves, etc.), charge parity (charge parity symmetry and charge parity violation), Higgs mechanism (Higgs field and Higgs boson), and string theory.